General Editor: Luiz Vialle

Authors: Ilya Laufer, JJ Verlaan (on behalf of AOSpine Knowledge Forum Tumor)

Spine tumors Thoracolumbar, unstable, high ESCC

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Glossary

1 Introduction top

Preoperative planning

Based on CT and MRI imaging, a plan should be prepared to determine:

  • The size and optimal location of implants used
  • Whether spinal cord decompression is necessary and if so, the amount of tissue to remove in order to achieve sufficient spinal cord decompression

Every case will be unique, and we will here illustrate just one example.


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Length of construct and cement augmentation

In patients requiring posterior lateral decompression, not requiring anterior column reconstruction, bilateral posterior pedicle screw fixation fixation with minimum fixation of at least one level above and below the involved segment should be used.

Short segment constructs lead to increased stress on the posterior implants increasing the risk of implant failure (screw pullout/fracture). The risk of implant failure may be decreased by cement augmentation of fenestrated screws and through reconstitution of the anterior column using cement augmentation of the pathological fracture.

Fixation of multiple spinal segments does not affect functionality in the thoracic spine due to the presence of rigid rib cage. Adequate screw purchase should be aimed for during initial surgery as revision surgeries are too demanding for these patients.


Embolization

Embolization procedures are recommended to reduce operative blood loss in hyper vascular tumors, especially for larger resections.


Neurological evaluation

The preoperative neurological assessment must be carried out as described in the Neurological Evaluation.

2 Stabilization top

Thoracic and lumbar fractures: Posterior long segment fixation enlarge

Pedicle screw insertion

Pedicle screws are inserted one or two levels above and below the tumor on both sides.

In cases of multilevel tumors or poor bone quality this construct can be extended.

In tumor patients achieving optimal screw purchase is even more important than in trauma patients to minimize risk of pullouts and reduce the number of levels involved.

Optimal pedicle screw purchase will, in order of importance, be achieved by:

  1. Selecting the largest possible screw diameter
  2. Selecting the longest possible screw
  3. Positioning of the screw under the cranial endplate
  4. Cement augmentation of the screw.

Thoracic and lumbar fractures: Posterior long segment fixation enlarge

Rod contouring

Rod contouring should mainly follow the curvature of the spine. Reducing preexisting deformities is typically not necessary and may lead to screw pull-out.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

Rod insertion and fixation

The rod is inserted into the screw heads and the screw heads are tightened with the inner nuts.

If posterior decompression is performed only one rod is inserted to facilitate access to the spinal canal.

3 Decompression top

Timing of decompression

A patient who is experiencing neurologic deficit from solid tumor ESCC resulting in loss in ability to ambulate, in the absence of medical and oncological contraindications, requires urgent surgical decompression.

Expeditious diagnosis and prompt surgery are recommended to improve the probability of neurological recovery.


Technique

Since most tumors originate in the vertebral body, transpedicular decompression is required in order to provide access to the ventral epidural space to achieve full spinal cord decompression, if this is the goal. In this technique commonly known as separation surgery, decompression is performed through the pedicle.

This technique can be performed from T1 to L5 levels, without the risk of retracting the thecal sac.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

Based on preoperative planning, the amount of lamina to be removed to achieve enough decompression can be determined beforehand.

A laminectomy is performed to provide full exposure of the tumor, and at least half a level above and below that in order to expose normal tissue planes.

Dissection should start above and below the level of the tumor and then continue into the level affected by the tumor, since the tumor may obscure normal tissue planes.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

The adjacent spinous processes and the intervening ligamentum flavum are excised.

Half of the superior and inferior lamina and the medial portion of the facet joint are removed. 


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

For T2-T12 tumors, the nerve roots may be ligated in order to facilitate exposure of the ventral epidural space and the vertebral body.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

The posterior longitudinal ligament (PLL) should be identified and separated from the dura with a dura dissector.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

The PLL should be cut in order to expose the vertebral body and the epidural tumor.

The spinal cord, dura, and tumor should be manipulated as little as possible.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

Reverse-angle curettes and pituitary rongeurs can be inserted through this opening, and any tumor and bone fragments compressing the anterior neural elements can be removed or impacted into the vertebral body.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

The goal of the separation surgery is to provide circumferential decompression of the spinal cord.

Once the removal of the epidural tumor is completed, the goal of the separation surgery is met. Following separation surgery, the patient should be treated with SBRT in a timely fashion.

If further decompression is needed, the same technique may be applied on the other side.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

If the decompression is adequate on both sides of the canal, the second rod may be fixed and tightened.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

The final construct is shown from a lateral view

4 Fusion top

Decision

Life expectancy and performance status should be used to determine whether bone grafting is indicated.

For patients with good prognosis and a long life-expectancy, posterior fusion may optionally be performed using allograft and/or local autograft.


Nonfusion

For nonfusion surgeries, the facet joint capsule is preserved during the entire procedure.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

Fusion

If the surgeon plans for a fusion, the facet capsule is excised, and the joint cartilage surfaces and posterior cortex are denuded/curetted.


Thoracic and lumbar fractures: Posterior long segment fixation enlarge

Pieces of bone graft (autograft, allograft) are inserted into the decorticated facet joint for fusion.

5 Intraoperative imaging top

Thoracic and lumbar fractures: Posterior long segment fixation enlarge

Prior to wound closure, intraoperative imaging is performed to check the adequacy of reduction, position, and length of screws and the overall coronal and sagittal spinal alignment.


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Lateral view of the above.

V1.0 2019.01.06